CN217654789U - Multi-depth sampling geological sampling device for limestone mining - Google Patents

Abstract

The utility model provides a many depths of limestone division of sample adopt geology sampling device, relate to geology sampling device technical field, including base component and drilling mechanism, the one end top of base component is provided with the rotating assembly of bolt assembly, and the top inboard of rotating assembly is provided with the arm of hinged joint, the one end of arm is provided with the drilling mechanism, the drilling mechanism includes motor pedestal, hanger plate, bearing housing, first motor, driving gear, passive fluted disc, spline housing, thread hard tube and buddha's warrior attendant drill bit; the utility model discloses mainly utilize and can follow the grafting additional a lesson screw thread hollow tube on the top side of screw thread hollow tube, can be under incessant rotation, downward operation that can last lets the lower side possess the brill rock layer that the screw thread hollow tube that diamond bored can last, the effect on rock layer just can incessantly be cup jointed to the screw thread hollow tube of multisection like this to reach the effect that the user of being convenient for carries out the categorised sample of different levels.

Description

Limestone exploitation of many degree of depth samples adopts geology sampling device

Technical Field

The utility model relates to a geology sampling device technical field especially relates to a geology sampling device is used in limestone exploitation of many degree of depth samples.

Background

Geological sampling refers to collecting a certain sample from ore bodies, surrounding rocks and mine production products according to certain specification requirements.

Present geology sampling device is difficult to effectively reach the categorised effect scheduling problem of sample with equipment in the use, consequently, the utility model provides a limestone of many degree of depth samples is opened and is adopted geology sampling device in order to solve the problem that exists among the prior art.

Disclosure of Invention

To the above problem, the utility model provides a limestone mining geology sampling device of many degree of depth samples, this limestone mining of many degree of depth samples adopts geology sampling device mainly to utilize the top side at the screw thread hollow tube can be followed and pegged graft another a lesson screw thread hollow tube, can be under incessant rotation, the down-going that can last, let the downside possess the brill rock layer that the screw thread hollow tube that the diamond bored can last, the screw thread hollow tube of multisection just can incessant cup joint the effect on rock layer like this, thereby reach the effect that the user of being convenient for carries out the categorised sample of different levels.

For realizing the purpose of the utility model, the utility model discloses a following technical scheme realizes: a geological sampling device for limestone mining with multiple depth sampling comprises a base component and a drilling mechanism, wherein a rotating component assembled by bolts is arranged above one end of the base component, a mechanical arm connected by a hinge is arranged on the inner side of the top end of the rotating component, and the drilling mechanism is arranged at one end of the mechanical arm;

the mechanism is got in brill includes motor pedestal, hanger plate, bearing housing, first motor, driving gear, passive fluted disc, spline housing, screw hard tube and buddha's warrior attendant drill bit, the motor pedestal sets up the one end of arm, the below of motor pedestal is connected with the bearing housing through the hanger plate, the one end of motor pedestal is provided with first motor, just the output of first motor runs through the motor pedestal is connected with the driving gear, the driving gear is connected with the meshing of passive fluted disc, just passive fluted disc bearing is connected the top of bearing housing, just the inboard of passive fluted disc is provided with spline housing of splined connection, the inboard of spline housing is provided with threaded connection's screw hard tube, just the below of screw hard tube is provided with the buddha's warrior attendant drill bit of annular distribution, the avris of getting the mechanism is provided with the cooling subassembly in the brill.

The spline housing is characterized in that the outer side of the spline housing is of a convex structure, the threaded hard tube is of a hollow structure, the threaded hard tube is of a segmented plug-in structure, and the bearing housing and the driven fluted disc are parallel to each other.

The improved structure is characterized in that the base component comprises an inserting pile, a steel seat plate, a pair of supports and a stay cable, the steel seat plate is arranged on the top side of the inserting pile, two pairs of supports are arranged above the other end of the steel seat plate, and the stay cable is arranged at one end of each support.

The improved steel base plate is characterized in that the rotating assembly comprises a flange base plate, an electric rotating seat, a bearing table and a rotating base, the flange base plate is arranged above one end of the steel base plate, the top side of the steel base plate is provided with the electric rotating seat, and the output end of the electric rotating seat penetrates through the bearing table and is connected with the rotating base.

The improved structure is characterized in that the mechanical arm comprises a servo motor seat, a first arm, a first side rod, a second arm and a second side rod, the servo motor seat is arranged on the top side of the rotary base, the inner side of the servo motor seat is provided with the first arm connected with a hinge, the inner side of one end of the first arm is provided with the second arm connected with a hinge, the side of the first arm is provided with the first side rod, and the side of the second arm is provided with the second side rod.

The improved structure is characterized in that the cooling assembly comprises a second motor, a pump body, a water pumping pipe and a spraying pipe, the second motor is arranged on the lateral side of the motor pedestal, the output end of the second motor is connected with the pump body, and the two sides of the pump body are respectively connected with the water pumping pipe and the spraying pipe.

The beneficial effects of the utility model are that:

the utility model discloses mainly utilize and can follow the grafting additional a lesson screw thread hollow tube on the top side of screw thread hollow tube, can be under incessant rotation, downward operation that can last lets the lower side possess the brill rock layer that the screw thread hollow tube that diamond bored can last, the effect on rock layer just can incessantly be cup jointed to the screw thread hollow tube of multisection like this to reach the effect that the user of being convenient for carries out the categorised sample of different levels.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic bottom perspective view of the present invention;

FIG. 3 is an enlarged schematic perspective view of the drilling mechanism of the present invention;

fig. 4 is a schematic view of the three-dimensional structure of the threaded hard tube and the diamond bit of the present invention.

Wherein: 1. a base member; 101. inserting piles; 102. a steel base plate; 103. aligning the support; 104. a pull cable; 2. a rotating assembly; 201. a flange substrate; 202. an electric rotating base; 203. a bearing table; 204. rotating the base; 3. a mechanical arm; 301. a servo motor base; 302. a first arm; 303. a first side bar; 304. a second arm; 305. a second side bar; 4. a drilling mechanism; 401. a motor pedestal; 402. a hanger plate; 403. a bearing housing; 404. a first motor; 405. a driving gear; 406. a driven fluted disc; 407. a spline housing; 408. a threaded hard tube; 409. a diamond bit; 5. a cooling assembly; 501. a second motor; 502. a pump body; 503. a water pumping pipe; 504. and (4) a spray pipe.

Detailed Description

In order to deepen the understanding of the present invention, the following embodiments will be combined to make the present invention do further details, and the present embodiment is only used for explaining the present invention, and does not constitute the limitation of the protection scope of the present invention.

According to the drawings of fig. 1-4, the embodiment provides a geological sampling device for limestone mining with multiple depth sampling, which comprises a base member 1 and a drilling mechanism 4, wherein a rotating assembly 2 assembled by bolts is arranged above one end of the base member 1, a mechanical arm 3 connected by a hinge is arranged on the inner side of the top end of the rotating assembly 2, and one end of the mechanical arm 3 is provided with the drilling mechanism 4;

the drilling mechanism 4 comprises a motor pedestal 401, a hanging plate 402, a bearing sleeve 403, a first motor 404, a driving gear 405, a driven fluted disc 406, a spline sleeve 407, a threaded hard tube 408 and a diamond bit 409, the motor pedestal 401 is arranged at one end of the mechanical arm 3, the lower part of the motor pedestal 401 is connected with the bearing sleeve 403 through the hanging plate 402, one end of the motor pedestal 401 is provided with the first motor 404, the output end of the first motor 404 penetrates through the motor pedestal 401 and is connected with the driving gear 405, the driving gear 405 is meshed with the driven fluted disc 406, the driven fluted disc 406 is in bearing connection with the upper part of the bearing sleeve 403, the inner side of the driven fluted disc 406 is provided with the spline sleeve 407 in splined connection, the inner side of the spline sleeve 407 is provided with a threaded hard tube 408 in threaded connection, the diamond bits 409 distributed annularly are arranged below the threaded hard tube 408, and the side of the drilling mechanism 4 is provided with a cooling assembly 5.

The spline housing 407 has a convex outer side, the threaded hard tube 408 has a hollow structure, the threaded hard tube 408 has a segmented plug-in structure, and the bearing housing 403 and the driven fluted disc 406 are parallel to each other.

In this embodiment, when cooling module 5 begins to spray water, start first motor 404 output power and drive driving gear 405 and rotate, driving gear 405 can mesh the transmission and let under the cooperation each other of passive fluted disc 406 and bearing housing 403 in order to reach the pivoted effect like this, thereby make under the cooperation each other of passive fluted disc 406 and spline housing 407, can make threaded hard tube 408 utilize the incessant drill body of diamond bit 409 of threaded hard tube 408 one end, can cup joint the rock body like this under the threaded hard tube 408 suit of cavity column structure, in order to make things convenient for the user to extract the rock body, reach the effect of sample.

The base component 1 comprises an inserting pile 101, a steel seat plate 102, a pair of supports 103 and a guy cable 104, the steel seat plate 102 is arranged on the top side of the inserting pile 101, two pairs of supports 103 are arranged above the other end of the steel seat plate 102, and the guy cable 104 is arranged at one end of each support 103.

In this embodiment, firstly, the insertion pile 101 is inserted underground by using the lower part of the steel base plate 102, so that the stability of the steel base plate 102 is improved, then the support 103 is arranged above the other end of the steel base plate 102, the stay cable 104 on one side of the support 103 is enabled to achieve the effect of connecting the bearing platform 203, and the balance stability of the equipment is improved.

Rotating assembly 2 includes flange base plate 201, electric swivel base 202, bearing platform 203 and rotating base 204, and flange base plate 201 sets up in the one end top of steel saddle plate 102, and the top side of steel saddle plate 102 is provided with electric swivel base 202, and electric swivel base 202's output runs through bearing platform 203 and is connected with rotating base 204.

In this embodiment, the electric rotating base 202 is then started to output power to drive the output end to rotate, so that the electric rotating base 202 drives the rotating base 204 above the bearing table 203 to rotate to the angle at which the equipment needs to operate.

The mechanical arm 3 comprises a servo motor base 301, a first arm 302, a first side rod 303, a second arm 304 and a second side rod 305, the servo motor base 301 is arranged on the top side of the rotary base 204, the inner side of the servo motor base 301 is provided with the first arm 302 connected with a hinge, the inner side of one end of the first arm 302 is provided with the second arm 304 connected with a hinge, the side of the first arm 302 is provided with the first side rod 303, and the side of the second arm 304 is provided with the second side rod 305.

In this embodiment, when the rotating base 204 rotates to the angle that equipment needs to rotate, start servo motor cabinet 301 output power, make servo motor cabinet 301 drive first arm 302 and carry out angle regulation, let under the cooperation of first arm 302 and second arm 304, make second arm 304 move the angle and the orientation that equipment needs the operation, because the equal hinged joint of first side pole 303 and second side pole 305 is in the both sides of first arm 302 and second arm 304, thereby promoted the stability and the equilibrium of equipment.

The cooling assembly 5 comprises a second motor 501, a pump body 502, a water pumping pipe 503 and a spraying pipe 504, the second motor 501 is arranged on the side of the motor pedestal 401, the output end of the second motor 501 is connected with the pump body 502, and the two sides of the pump body 502 are respectively connected with the water pumping pipe 503 and the spraying pipe 504.

In this embodiment, when the second arm 304 moves to a suitable angle and orientation, the second motor 501 is started to output power to drive the pump body 502 to move, so that when the pump body 502 moves, the water pumping pipe 503 is utilized to pump the water body to be sprayed out through the spraying pipe 504 at one end of the pump body 502, and the effects of cooling and reducing friction force on the rock body are achieved.

The working principle of the geological sampling device for limestone mining with multiple depth sampling is as follows: firstly, the inserting pile 101 is inserted underground by utilizing the lower part of the steel base plate 102, so that the stability of the steel base plate 102 is improved, then the upper opposite support 103 is arranged above the other end of the steel base plate 102, the stay cable 104 on one side of the support 103 achieves the effect of connecting with the bearing platform 203, the balance stability of the equipment is improved, then the electric rotating base 202 is started to output power to drive the output end to rotate, the electric rotating base 202 drives the rotating base 204 above the bearing platform 203 to rotate to the angle at which the equipment needs to operate, when the rotating base 204 rotates to the angle at which the equipment needs to rotate, the servo motor base 301 is started to output power, so that the servo motor base 301 drives the first arm 302 to adjust the angle, the first arm 302 is matched with the second arm 304, the second arm 304 is driven to the angle and the orientation at which the equipment needs to operate, and the first side rod 303 and the second side rod 305 are hinged on the two sides of the first arm 302 and the second arm 304, thereby improving the stability and balance of the equipment, starting the second motor 501 to output power to drive the pump body 502 to operate, when the pump body 502 operates, pumping water through the water pumping pipe 503 to spray water through the spray pipe 504 at one end of the pump body 502, thereby achieving the effects of cooling and reducing friction on rock, when the cooling assembly 5 starts to spray water, starting the first motor 404 to output power to drive the driving gear 405 to rotate, so that the driving gear 405 can be meshed for transmission to enable the driven fluted disc 406 and the bearing housing 403 to be mutually matched for achieving the rotating effect, so that under the mutual matching of the driven fluted disc 406 and the spline housing 407, the threaded hard pipe 408 can continuously drill the rock by using the diamond bit 409 at one end of the threaded hard pipe 408, and thus the rock can be sleeved under the threaded hard pipe 408 with a hollow structure, the rock body is convenient for a user to extract, and the sampling effect is achieved.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a limestone division of many depth samplings adopts geology sampling device, includes base component (1) and bores and get mechanism (4), its characterized in that: a rotating assembly (2) assembled by bolts is arranged above one end of the base component (1), a mechanical arm (3) connected by a hinge is arranged on the inner side of the top end of the rotating assembly (2), and a drilling mechanism (4) is arranged at one end of the mechanical arm (3);

the drilling mechanism (4) comprises a motor pedestal (401), a hanging plate (402), a bearing sleeve (403), a first motor (404), a driving gear (405), a driven fluted disc (406), a spline sleeve (407), a threaded hard tube (408) and a diamond bit (409), wherein the motor pedestal (401) is arranged at one end of the mechanical arm (3), the bearing sleeve (403) is connected to the lower side of the motor pedestal (401) through the hanging plate (402), the first motor (404) is arranged at one end of the motor pedestal (401), the output end of the first motor (404) penetrates through the motor pedestal (401) and is connected with the driving gear (405), the driving gear (405) is meshed with the driven fluted disc (406) and is connected to the upper side of the bearing sleeve (403), the spline sleeve (407) is arranged on the inner side of the driven fluted disc (406), the threaded hard tube (408) in threaded connection is arranged on the inner side of the spline sleeve (407), the threaded hard tube (408) in annular distribution is arranged on the lower side of the threaded hard tube (408), and the diamond bit (409) in annular distribution is arranged on the lower side of the diamond bit (4), and the drilling mechanism (5) is arranged on the side of the diamond bit.

2. The geological sampling device for limestone mining with multiple depth sampling according to claim 1, characterized in that: the outer side of the spline sleeve (407) is of a convex structure, the threaded hard tube (408) is of a hollow structure, the threaded hard tube (408) is of a segmented splicing structure, and the bearing sleeve (403) and the driven fluted disc (406) are parallel to each other.

3. The geological sampling device for limestone mining with multiple depth sampling according to claim 1, characterized in that: the base component (1) comprises an inserting pile (101), a steel base plate (102), two pairs of supports (103) and a guy cable (104), wherein the steel base plate (102) is arranged on the top side of the inserting pile (101), two pairs of supports (103) are arranged above the other end of the steel base plate (102), and the guy cable (104) is arranged at one end of each support (103).

4. A multi-depth sampling limestone mining geological sampling device according to claim 3, characterized in that: the rotating assembly (2) comprises a flange base plate (201), an electric rotating seat (202), a bearing table (203) and a rotating base (204), wherein the flange base plate (201) is arranged above one end of the steel seat plate (102), the electric rotating seat (202) is arranged on the top side of the steel seat plate (102), and the rotating base (204) is connected with the output end of the electric rotating seat (202) through the bearing table (203).

5. The geological sampling device for limestone mining with multiple depth sampling according to claim 4, which is characterized in that: arm (3) are including servo motor cabinet (301), first arm (302), first side pole (303), second arm (304) and second side pole (305), servo motor cabinet (301) set up the top side of rotating base (204), the inboard of servo motor cabinet (301) is provided with hinged joint's first arm (302), just the one end inboard of first arm (302) is provided with hinged joint's second arm (304), the avris of first arm (302) is provided with first side pole (303), the avris of second arm (304) is provided with second side pole (305).

6. The geological sampling device for limestone mining with multiple depth sampling according to claim 1, characterized in that: cooling subassembly (5) include second motor (501), the pump body (502), drinking-water pipe (503) and spray tube (504), second motor (501) set up the avris of motor pedestal (401), the output of second motor (501) is connected with the pump body (502), just the both sides of the pump body (502) are connected with respectively drinking-water pipe (503) and spray tube (504).

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